A 17.0-μF capacitor is charged by a 150.0-V power supply, then disconnected from the power and connected in series with a 0.260-mH inductor. Part A Calculate the oscillation frequency of the circuit. Express your answer with the appropriate units. f = 2.39 kHz Submit Previous Answers Part B Correct Calculate the energy stored in the capacitor at time t = 0 ms (the moment of connection with the inductor). Express your answer with the appropriate units. U = 0.191 J Submit Previous Answers Part C Correct Calculate the energy stored in the inductor at t = 1.30 ms. Express your answer with the appropriate units. U = 8.02×10-2 J

A 17.0-μF capacitor is charged by a 150.0-V power supply, then disconnected from the power and connected in series with a 0.260-mH inductor. Part A Calculate the oscillation frequency of the circuit. Express your answer with the appropriate units. f = 2.39 kHz Submit Previous Answers Part B Correct Calculate the energy stored in the capacitor at time t = 0 ms (the moment of connection with the inductor). Express your answer with the appropriate units. U = 0.191 J Submit Previous Answers Part C Correct Calculate the energy stored in the inductor at t = 1.30 ms. Express your answer with the appropriate units. U = 8.02×10-2 J

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Question

A 17.0-μF capacitor is charged by a 150.0-V power
supply, then disconnected from the power and
connected in series with a 0.260-mH inductor.
Part A
Calculate the oscillation frequency of the circuit.
Express your answer with the appropriate units.
f = 2.39 kHz
Submit
Previous Answers
▾
Part B
Correct
Calculate the energy stored in the capacitor at time t = 0 ms (the moment of connection with the inductor).
Express your answer with the appropriate units.
U = 0.191 J
Submit
Previous Answers
▾
Part C
Correct
Calculate the energy stored in the inductor at t = 1.30 ms.
Express your answer with the appropriate units.
U = 8.02×10-² J

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